The article investigates and analyzes 15 university libraries' web page of Heilongjiang Province,and puts forward some problems of building the website of university library that shall be paid attention to.
This paper discusses library consortia's origin and development and mainly introduces Tian Jin Academic Digital Library and its technology platform, resource building, service and organization and management.
This paper first analyzes the feasibility of applying Web2.0 to the subject construction of academic libraries, meanwhile, it brings forward an idea to build an interactive, orderly, personalized subject service platform by using the core technologies of Web2.0 such as BLOG,RSS, WIKI,AJAX.
The destination of China's Sustainable Development Information Sharing Web Service System is to build the China's sustainable development information Sharing network system, to develop network and service platform, to supply system solution of sustainable information data management, publication and service.
Build the deep change brought to the information resources of the traditional library to the environment of the network,this text has analysed emphatically the environment of the network makes the predicament of information resources construction of university's library,have proposed how to strengthen the idea and countermeasure of information resources construction under the environment of network.
This paper analyzes on the developing directions of the library from five aspects of library's network pioneering plan,the technical support,the development of library's individual network service,the construction of the characteristic library website,and the management of the network talents.
Starting from the relationship between traditional library and digital library,this paper expounds some problems such as the main direction,human resource,hardware construction,organizational innovation and basic principles of the digitalized development of university library,and advances some suggestions.
In the case of 4-dimensional anticommutative algebras a construction is given that links the associated cubic surface and the 27 lines on it with the structure of subalgebras of the algebra.
The aim of this paper is to discuss a construction of a class of linear isomorphisms σ:S(g)→U(g) which commute with the adjoint representation.
However, there are many examples that do not arise from this construction.
Using the properties ofn-Hopf algebras we show that certain spaces do not admit the structure of ann-valued group and that certain commutativen-valued groups do not arise by applying then-coset construction to any commutative group.
We give complete proofs of the K-theoretic construction of the quantized enveloping algebra of affine gl(n) sketched in [GV].
We denote byI (resp.IE) the nonextended affine building ofG (resp.
We present here a self-contained derivation, building the decomposition from basic principles such as the Euclidean algorithm, with a focus on applying it to wavelet filtering.
These bases are useful for building systems for evaluating image quality.
Such bases are useful for building systems for evaluation image quality.
distichum takes on the features of a water-tolerant and hydrophilic plant, which can be considered as one of the species for the building of a forest protection system for the hydro-fluctuation belt in the Three Gorges Reservoir area.
Our construction and proofs build upon ideas of Burkholder and Mitrea.
In doing so, we also obtain results for Pauli's problem; in particular, we build functions that have infinitely many Pauli partners.
The second part considers nonabelian groups where, as an example, we show how to build such bases where the group of unitary transformations consists of modulations and rotations.
As an example, we show how to build such bases where the group of unitary transformations consists of modulation and rotations.
Seven topological descriptors are finally selected from 127 topological descriptors by GAPLS method to build a QSRR model with a high regression quality of squared correlation coefficient (R2) of 0.99998 and standard deviation (S) of 2.88.